Kees Jan van Groenigen
Kees Jan van Groenigen
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Geciteerd door
Productivity limits and potentials of the principles of conservation agriculture
CM Pittelkow, X Liang, BA Linquist, KJ van Groenigen, J Lee, M Lundy, ...
Nature 517 (7534), 365-368, 2015
Towards an agronomic assessment of N2O emissions: a case study for arable crops
JW Van Groenigen, GL Velthof, O Oenema, KJ van Groenigen, ...
European Journal of Soil Science 61 (6), 903-913, 2010
When does no-till yield more? A global meta-analysis
CM Pittelkow, BA Linquist, ME Lundy, X Liang, KJ van Groenigen, J Lee, ...
Field Crops Research 183, 156-168, 2015
Interactions between plant growth and soil nutrient cycling under elevated CO2: A meta‐analysis
MA De Graaff, KJ van Groenigen, J Six, B Hungate, C van Kessel
Global Change Biology 12 (11), 2077-2091, 2006
An agronomic assessment of greenhouse gas emissions from major cereal crops
B Linquist, KJ van Groenigen, MA Adviento‐Borbe, C Pittelkow, C Kessel
Global Change Biology 18 (1), 194-209, 2012
Earthworms increase plant production: a meta-analysis
JW van Groenigen, IM Lubbers, HMJ Vos, GG Brown, GB De Deyn, ...
Scientific Reports 4, 6365, 2014
Increased soil emissions of potent greenhouse gases under increased atmospheric CO2
KJ Van Groenigen, CW Osenberg, BA Hungate
Nature 475 (7355), 214-216, 2011
Climate, duration, and N placement determine N2O emissions in reduced tillage systems: a meta‐analysis
C van Kessel, R Venterea, J Six, MA Adviento‐Borbe, B Linquist, ...
Global change biology 19 (1), 33-44, 2013
Fertilizer management practices and greenhouse gas emissions from rice systems: a quantitative review and analysis
BA Linquist, MA Adviento-Borbe, CM Pittelkow, C van Kessel, ...
Field Crops Research 135, 10-21, 2012
Greenhouse-gas emissions from soils increased by earthworms
IM Lubbers, KJ van Groenigen, SJ Fonte, J Six, L Brussaard, ...
Nature Climate Change 3, 187-194, 2013
Element interactions limit soil carbon storage
KJ van Groenigen, J Six, BA Hungate, MA de Graaff, N Van Breemen, ...
Proceedings of the National Academy of Sciences 103 (17), 6571-6574, 2006
Towards more realistic projections of soil carbon dynamics by Earth System Models
Y Luo, A Ahlström, SD Allison, NH Batjes, V Brovkin, N Carvalhais, ...
Global Biogeochemical Cycles 30 (1), 40-56, 2016
Faster decomposition under increased atmospheric CO2 limits soil carbon storage
KJ Van Groenigen, X Qi, CW Osenberg, Y Luo, BA Hungate
Science 344 (6183), 508-509, 2014
Accelerated microbial turnover but constant growth efficiency with warming in soil
SB Hagerty, KJ Van Groenigen, SD Allison, BA Hungate, E Schwartz, ...
Nature Climate Change 4 (10), 903-906, 2014
Enhanced efficiency nitrogen fertilizers for rice systems: Meta-analysis of yield and nitrogen uptake
B Linquist, L Liu, C van Kessel, KJ van Groenigen
Field Crops Research 154, 246-254, 2013
Sequestering Soil Organic Carbon: A Nitrogen Dilemma
JW van Groenigen, C van Kessel, BA Hungate, O Oenema, DS Powlson, ...
Environmental Science & Technology 51 (9), 4738-4739, 2017
A trade-off between plant and soil carbon storage under elevated CO2
C Terrer, RP Phillips, BA Hungate, J Rosende, J Pett-Ridge, M Craig, ...
Nature 591, 599-603, 2021
Bioenergy from “surplus” land: environmental and socio-economic implications
J Dauber, C Brown, AL Fernando, J Finnan, E Krasuska, J Ponitka, ...
BioRisk 7, 5-50, 2012
Assessing the effect of elevated carbon dioxide on soil carbon: a comparison of four meta‐analyses
BA Hungate, KJ van Groenigen, J Six, JD Jastrow, Y Luo, MA De GRAAFF, ...
Global Change Biology 15 (8), 2020-2034, 2009
Abundance, production and stabilization of microbial biomass under conventional and reduced tillage
KJ van Groenigen, J Bloem, E Bååth, P Boeckx, J Rousk, S Bodé, ...
Soil Biology and Biochemistry 42 (1), 48-55, 2010
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